Telegraphic apparatus of the starting-stopping type



jan. l0, i950 2,494,232

JEAN ESTOUP OTH ERWlSE KNOWN AS HENRI ESTOUP TELEGRAPHIC APPARATUS OF' THE STARTING-STOPPING TYPE Filed Oct. 18, l946- 6 Sheets-Sheet l wif/151? JEAN ESTOUP OTHERWlSE KNOWN AS HENRI ESTOUP TELEGRAPHIC APPARATUS OF THE STARTING-STOPPING TYPE Jan., w, 1950 6 Sheets-Sheet 2 Filed Oct. 18, 1946 Jam W, i195@ JEAN ESTOUP 2,494,232

OTHERWISE KNOWN AS HENRI ESTOUP TELEGRAPHIC APPARATUS OF THE STARTING-STOPPING TYPE Filed Oct. 18, 1946 6 Sheeis-Sheet 3 jaw Fam w, 195@ JEAN ESTOUP 4949232 OTHERWISE KNOWN AS HENRI ESTOUP TELEGRAPHIC APPARATUS 0F THE STARTING-STOPPING TYPE inventar Jem f5 www Aktorney Jan. 10, i950 `JEAN EsTouP 2,494,232

OTHERWISE KNOWN As HENRI Es'rouP TELEGRAPHIC APPARATUS 0F THE STARTING-STOPPING TYPE' Filed 001'.. 18, 1946 6 Sheets-Sheet 5 es 4f?, 4,22 f2;

426 419 EL f 38? Z507 4&9 f 3% i 50@ ses 376 405 g8 j 530 366 o 329 146 M Jaffe/fof e/aiz Ziggy Jan my E950 JEAN EsToUP OTHERWISE KNOWN As HENRn Es'rouP TELEGRAPHIC APPARATUS oF THE STARTING-STOPPING TYPE 6 Sheets-Sheet 6 Filed 001'.. 18, 1946 lnvellutor Jean Eoup virpqwllseknown as Henl'fsou Patented Jan, 10, 195@ UNITED STATES PATENT OFFICE TELEGRAPHIC APPARATUS F THE STARTING-STOPPING TYPE Jean Estoup, otherwise known as Henri Estoup,

Sceaux, France, assigner to Societe DApplications Generales DElectricite et de Mecanique Sagem, France Paris, France, a corporation of Application October 18, 1946, Serial No. 704,080 In France March 13, 1945 Section 1, Public Law 690, August 8, 1946 Patent expires March 13, 1965 claims. 1

The present invention relates to "Teletype transmitting, receiving and translating telegraphic apparatus of the starting-stopping type, which transmit and receive each character by means of seven equal impulses comprising a starting impulse, five code impulses and a stop-v ping impulse. It particularly, but not exclusively, applies to apparatus in which the transmission control translation is obtained by mechanical means, without any intervention from the receiving device.

The object of the invention is to constitute an apparatus having all its moving parts driven by lation is eectuated by a centrifugal contactV making and breaking the feed circuit to an electric driving motor. Of course, this arrangement has many drawbacks: the 'elements that could sustain speed variations react unfavourably, due

to their inertia, upon the regulated speed and, accordingly, affect the operation of the speedregulated members; consequently, the driving motor must be made oversize to provide against irregular and jerky driving. Furthermore, the regulator contacts Wear out and cause drifting of the speed, requiring frequent readjustments, and parasitic impulses are transmitted which are almost impossible to remove completely.

A ccrding to the invention, for avoiding the said disadvantages, the electric motor drives directly the members tolerating substantial differences in speed; the members needing accurate speed regulation, being connected together and driven by means of a slipping friction connection and regulated by a mechanical centrifugal regulator frictionally absorbing the excess of avail-l able energy. Since small-size centrifugal mechanical regulators can only control a small nous motor, the transfer mechanism and the printing mechanism being thus on the one hand power, it is necessary to reduce to a minimum v of the non-regulated shafts. When a function necessitating an abruptly variable stress can only be accomplished by a regulated shaft, the

stress variation has to be suppressed by disengaging, by means of the regulated shaft, a mem-4 ber pulled by a spring which is subsequently rewound as much as possible.

Consequently, the invention essentially consists in a transmitting, receiving and translating telegraphic apparatus of the starting-stopping. type, comprising in combination, akey-board having keys on which the operator is striking, a selecting mechanism comprising the selecting members moved by each key according to theY character to be transmitted, a distributing mechanism which transmits each combination according to the position of the selecting members, a receiving distributing mechanism positioning storing members according to each combination being received, a translating mechanism comprising seeking members capable of being displaced and of printing a character according to, the position of -combinators, a transfer mecha-y nism performing at a determined time the positioning of the combinators according to the position of the storing members, and a printing mechanism operating Athe seekers and the printing members; characterized by the fact that all such mechanisms are divided into two groups, the mechanisms of one group having to revolve f 'at a perfectly constant speed and those of the other group being allowed to revolve at a less', perfectly constant speed. Operation is effectu- ,y ated by a single electric motor of normally low speed variation, such as a direct current shunt' motor or an alternating current non-synchrodriven by means of constant ratio connections,

whilst on the other hand, the transmission distributing mechanism and the receiving distributing mechanism, connected to each other by constant speed ratio connections, are driven by the motor by means of a friction slipping coupling,

It will however be fully understood by means of the following disclosure and of the accomj panying drawing, which is a simple diagram mainly given as example.

all arrangement of the apparatus which is the -object of the invention.-

in the said drawings: Fig. 1 shows in diagrammatical form, the overl Fig. 2 shows the electric circuits of the Said apparatussupposedconnected in two-wire doubleV current;`

Fig. 3 shows the one-wire double current connections;

Fig. 4 shows the simple current connection;

Fig. 5 shows the overall arrangement ofthe' y I mechanism;

Fig. 6 shows the characters'aiguifes.Aseparate;`

ing mechanism;

Fig. 7 shows the paper' bandf advancing mechanism;

Fig. 8 shows the characters counting mechanism;

Fig. 9 shows the motor automatic starting andr stopping mechanism;

Fig. 10 shows the carriage advancing and re- 4 subsequently received will be printed in figures or punctuation marks wherr the combination ngure'sisftranslatedi When the combination Who is there? is being 1' "received, a call signal transmitting mechanism M receiving .its `motion from the shaft d is started i and' causes the starting in continuous rotation of the transmission distributor E, at the same time as-'itf is acting: directly upon the intermediate mechanism C; in order to transmit the series of characters' ory signsfwhich constitute the call sig-V nal ofthe apparatus.v

turn mechanism as well as the mechanism for spacing between lines; f

Fig. 11 shows the starting adjusting device of the` receiving...cams;v

Fig.12'shows the automatic advancing. andreturn mechanismior theprinting band.

General'arra'nycment A train of wheels N receiving its motion from theshaf-tZthrou'ghal' suitable reduction gear ratio 5 -performs'the starting of the motor O when a key is being struck or a combination received, and

automatically stops in a determined time after striking the last key, or after receiving the last combination.

combination to be' transmitted from-the interme; Y

diate -rriechanisin C"`up-to 'the`- combining membersI of` theL pr-i'nti'ng-translat-ing`v mechanism Hf con-f nected to` theA codex contacts'` of the contactor"V l; then', by the'action` of' the'pri'ntingseeking mech-v anism J1' it seeks andlprints thecharacter corresponding tothe' key: struck," at'the' same time;

the' transmission" distributing' mechanisml E performs; acc'o'rdingtotheposition of the code cone tacts, the transmission of the' currents representedbythe' actuated key;the' shaft'2 revolves more'- rapidly than the' shaft l; so" that'. the revolution of the striking mechanism. will. be completed before the end'ofr the revolutionp the transmission dis,trib'utir'ig` mechanism El For receivinga combination,V `the currents com.- ing.. from theline, energizing arelay not shown, setinmotion the receiving` mechanism KldriveniA bytheshait 3'; according to thecurrents beingv received', the. receiving. mechanism K positions the storing. members of. the -interm ediate mechanism. C.;. by? the end of. itsrevo1ution,. the receiving mecl'ianisrn` starts the strikingA mechanism F whichperformsas for theltransmission, the transf fer of the combinationfrom the: storing membersupfto the combiningsmembers of the printing translating.. mechanisma I-I-,. then.- theV seeking' and printing of4 the: character. corresponding. to` the combinationbeingreceived;

When the combination letters is translatedl byV the.printinga-tiianslating mechanismy J a' reversingv4 mechanism L, receiving itss motion from: 7UA

the shaft-.2 positions theprintingv-mechanism, so^ that the.- characters subsequently received will be:` printed-indieners.. thesame way; the.v reversing mechanism- L performs the; positioning' of. thef The mechanisms of the devices receiving their motion from vtheymotor O canA be div-ideddntotwo groups having: .opposed requirements: thef transf mission dstributorrE, the: receiving distributorl Kand the. callsignaliM needafperfectlyadjusted; speedA which4 is: only-V obtainable by means.A of ai regulatiarfoy low-resistance variable within close limits;` conversely the.-striking mechanism-F and` the reversing"v mechanism@ L.require, and imposev oi:i.the.-motor,A high and` suddenly -variable stresseslV butcan' allow ciy speed.. variations which arerlnor;Av mally admissible in continuous current shunt'.

motors; orf in alternating-l currentasynchronous motors, Jnotprovided/with. a speed regulator.

The motor O-drives;. onthe one. hand; the shaft 21 by-imeana of arshaftf, a worinscrew and speed reducinggearing,y 1r and, lonthe. otherhand, a

shaft fthroug-h` a1 frictionccoupling 9.: The shafts.y

I,.3 and4'areY-drivenlby shafts through thelinter` mediaryy of. worm? and: gear l-l i and a reducing gearing |-2", thespeedsofsaid shafts beingl de'- terminedr-by thef regulator :P driven by4 the worm' screwfandfmultiplying-gear Q; Itis onlynecessary' tof designthe electric` inciter O` so that4 its' speed; inr the most unfavourable conditions, beY always higher than the speed'` assigned tothe shaft 8F: by the: regulator Pg Slipping willi take'- place: between 4loothi shafts 5': andl 8i in couplingr 9;- wherebydrivingfofthe shaffti is had at'con stantspeedvariations ini. the speedfof the motor Oi aiectingsaid constantispeedi Electric operation- Fig. 2 shows the electric circuits of. the apparatas-with' theirl connections, inv the case in which two lines lareavailable; .used respectively for trans- Mphase alternating current. orv direct current is,

available only, ther terminals` lland' I1 as4 well as the contact lwill'onlybe used.

Thatransmissionis. accomplished by means of the. contactant, 22, 233 24,. 2-5, 26f and 27 succes-ff sifvelyplaced in circuit,l by'tlie'f distributor E. Thef contact 2l' connects the commonfnegati've. wire- 28,` the positive :wire Z1." and" each: of the. contacts 22;'y

23iand24', 25 andi with? the-.polarity-established by thecontacts-:ME- 3U, 311' 31i and33 offthe` con printing mechanism in order'ithatthefcharacters'7d-wanton Iii Tlfieinputland output-cf the-transmise' sion circuit thus constituted are made through the terminals 34, and 36.

A "transmission-reception cam of the transmission distributor E closes the contacts 31-38 and 31-39. The circuit thus deiined is connected to the terminals 49, 4| and 42.

When the transmission mechanism E is at rest, the contacts 21 and 31-38 are closed; when, un'- der the action of a key being struck, the transmission mechanism E is set in rotation, the said contacts 21 and 31-38 are opened and the contacts 2|, 22, 23, 24, 25 and 26 are successively closed, each for the time of an impulse; closure of the contact 21 is then made. The contact'between 31-39 is made during the time of closure of the contacts 2i, 22, 23, 24, 25 and 26, then during the beginning of closure of the contact 21. It is interrupted and the contact 31-38 is 'reestablished when the transmission mechanism returns to its rest position.

The receiving electromagnet 43 is connected to the terminals 44 and 45.

For connecting the apparatus in two-wire double current as shown in Fig. 2, terminals 34 and 35 are respectively connected to minus and plus of the transmitting cell 46. The transmission line 41 is connected to the terminal 36. The receiving line 43 is connected to the terminal 42 and the terminal 4| to the terminal 44. The terminal 45` is connected to earth. A control resistance 49 supplies the terminal 4e with part of the current being transmitted.

When the transmission mechanism is at rest, the currents coming from the line 48 follow the paths: 42, 38, 31, 4i, 44, 43, 45, earth, When the transmission mechanism is operating the connection 311-38 is cut oi; the currents coming from the transmission circuit-reach the line 41 and are shunted through 49, 40, 39, 31, 4|, 44, 43, 45, earth, to the receiving electromagnet. The trans'- mission control translation being secured through mechanical means independent from the receiv-` ing device, the said branch circuit is not at all indispensable and the line 41 can be directly connected to the terminal 44, the three terminals 40, 4| and 42 remaining free.

The ringing contact 50 is connected to the terminals 5| and 52.

Fig. 3 shows the connections of the apparatus for one-wire double current. When the transmitting mechanism E,.is at rest, the currents coming from the line 53 follow the path: 4|, 31, 38, 42, 44, 43, 45, earth and consequently flow through the electromagnet 43. When the mecha. nism E is revolving, the currents being transmitted follow the path: 28, 36, 49, 39, 31, 4| and reach the line 53. A control resistance 54 can be inserted between the terminals 4| and 42 for standardization purposes, but it is not at all indispensable. I

Fig. 4 shows the connections to be made for the connection to a central battery. The line 55 is connected to the terminal 44 and the current then follows the path: 44, 43, 45, 35, emission circuit, 28, 36, earth. The electromagnet 43 andv the transmission circuit are thus connected in series with the line, transmission being accom-V plished by switching off the line current.

It should be noted that receiving can be per-v formed in double current, thus reducing the current intensity which is necessary and increasing the direct range of the apparatus, transmission being made by breaking of the resting polarity established in the line when the apparatus is no receiving.

Mechanical 'operation Fig. 5 illustrates the operation ofthe various mechanisms brought in action by striking a key, y

the transmission of the corresponding combination and its .local translation, as well as the mechanisms set in operation in receiving a combination and its translation. l

The shafts i, 3 and 4 are driven by the motor O (Fig. 1), as explained above, and revolve at'a lperfectly regulated speed. The shaft 2, driven directly by the motor, revolves at a slightly variable speed only.

M anipulation and selection of a combination For transmitting a character, the operator strikes a key 56 carried by the key lever 51 pivoted about the axis 58 and retracted by the spring 59. The key lever 56 pushes five bars of a set of ten selecting bars disposed in complementary pairs,

each pair Sil-6|, only one of which is shown,

corresponding to a code impulse. The selecting bar 60 is held by the lever 62, freely pivoted about I the axis 63, and by the lever 64 pivoted about the axis 65. The levers 62 and 64 are connected by the rod 66. The assembly forms a parallelogram which imparts to the selecting bar 66 a substantially vertical displacement. A spring 61 calls back the selecting bar 60 upwardly. In the same way, the selecting bar 6|, held by the levers 68 and 69 pivoted about the axes 63 and 65, and connected together by the rod 19, has a vertical displacement. It is kept raised by a spring 1|.

The levers 62 and 68-are provided with two iingers 12 and 13 adapted to press against a tooth 14 of a storing bar 15 slidable upon two spurs 16 and 11. A roller 18 carried by a lever 19, which can revolve about an axis 80 and is subjected to the action of a spring 8|, is urged against a tooth 82 of the storing bar 15 in order to be able to throw the same towards either of its end positions. y

Although only one storing bar is shown, there are as many pairs of the said bars as of pairs of selecting bars, each storing bar being operable by one pair of selecting bars. At rest, both fingers 12 and 13 are withdrawn to allow free movement to the bar 15. As the operator lowers the key 56, he displaces vertically one lor the selecting bars 60 or 6I and pushes the corresponding lingers 12 and 13 towards the tooth 14. If the storing bar is in the position corresponding to the polarity of the selecting bar being considered, it undergoes no displacement. If it is in the other position, it is displaced. Consequently, as a key is finally lowered, the storing bars such as 15 are in the positions corresponding to the polarities of the impulses corresponding to the key being struck.

Transfer of the combination One of the two selecting bars lowered pushes a iinger 83 secured to a lever 84 pivoted about an axis 85. By this movement the lever 84 lifts a rod 86 attached to a lever 415 pivoted about an axis 416, said axis carrying a second lever 411. which, through the intermediary of a bar 418 moves lever 81. Said lever 81 is pivoted about the axis 88 and carries the pusher 89 pressed by the spring 99, said pusher holding the hook 9| pivoted at 92 and subjected to the constant action of the spring 93. The hook 9| adapted to release the v stop-lever 94 pivoted at 95 and which, under the action of the spring. 96,A swings .away from the transmission cam shaft 9T.`

By.: means-*of the1rody08-,i the-leven '94@ pullsithe frame 85|, ,whereby the rod |00's-wings=;about= the |.BIr the: translating cams. stopping. member |02. The4 clutch ofrthetranslatin'g cams is confstituted by tworatchets |03; vsecured .onthe shaft 2, of which only onefcanbefseen intheeiigfure. .The translationcamshaft I04-is driven byfarslight yfrictionfrom the shaftfZ. Itcarrieaan arm: |05 driving two pawlsf |00 and llconstantlypressed .back .towards thera-tchets.` |03- by. the :flat springs |08 and |09. At rest, the pawlsV |06-.and HVL-abut against the stop |02, away from the ratchets |03. Whenftiiemember lllz'is'tilted', both pawls |06 and |01, left to the action .of .thesprings I and vIliqQfalllon theratchets I03andlthe shaftLLdr-ives the shaft |04. As' shaft |04begins torotate, thetransfer cam I I0 displaces a roller I I'I securedl on .the lever. |42, pivoted at |13, and pulling. the rodi H4' Vtoftilt lthe frame H5. Said'f'rame carriesa shaftA IIE `around which are. freely pivotedv five tumbler members. IIJ (only one ofwlichV is shown). and which are moved. towards the storingv` bars such asi '15.

The storing bar 'Iis provided with two teeth I .2 U'and I 2.| movable in front of either ofthe teeth q| |8 and. .I'ISSof tumbler |lI7Ias.the storing bar assumes either ofitsend positions. supposing that the storing. bar 'Wisin its rightpositiomthe' end comes `in engagementwith the tooth I'I` and the tumbler member I "Il isi tilted.in.clockwise direction, driving by means of the' bar I22"and;.the arm |23 the combining bar |24'slidablejongitudinally onthe pins |25v and4 |25; the positionsl of the bar are controlled by a` jumping' roller |21' carried by a lever |28 subjectedto the action of aspring |29. E'a'ch combiningbar drives oneof the code contacts 20, 30', 3P, 32`andtl3Y (Fig 2) of which onlyone is'shownin Fig; 5, the code contacts 'being thus positioned during* the trans fer of the combination without the Areceiving device intervening in any way.` Y

In Vorder to facilitates'thersetting of the appara# tus, the arm |23 is adjustable longitudinally in a tight t along the combiningbar- |24by kr'nea'ns o'f two'slots ISE and |3Ilengagedlbyfthe studs |32 and |33. It islockedf'byascrewf I341andican be displaced after-unlocking of thesaid'f'screwby inserting in the hole providedinthe combiningbar I24'theend of arspecial ll :ey, afboltl'ormed on the key entering 'anaperture-'It provided in the arm |23..

The combinationdetermined byY the .striking of the key is thus transferred; from. the start of rotation off the' translation camshaft |01; inthe combining. bars |24 integral with` the' code' contacts 29, 30,2311, 32 and. 33

Rhythmic device remains fin its place, but conveys-"to 'the vfingerftl're pressure of the'spring |392 advising tha-operatorI that the transmission is= underway.

perfectly constant spee'd 8 Translation and printing of' the manipulated character The combinationA is translated and printed during.. the. remainder of the revolution of the translating cams,-as follows: the shaft |04 carries a striking cam |41 which, acting uponthe leverY |42 tensionedbya strong spring. |43, allows the forwarddisplacement of a universal striking .bar |144 which, during the rst part of its stroke, frees the seeking levers tofallon .the combining bars |24, four ofthe said seeking. lever |45, |46, '|41' and |48 being shown in the. figures.

.The lever |341, for instance, controls the printing of a character. It can revolve around a pivot |40 carriedby a bell crank I5which can freely pivot about the shaft |5| common to all such cranks. Aspring |52 constantly urges lever |41 downwards and backwards. Duringthe displacement of the striking bar I 44, the seeking lever |41 falls on the combining bars |24. It isstopped when meeting a tooth of a combining bar. It is only the lever which meets an alignment of ve .slots that is falling. if itis supposed that this is the case for the seeking lever |4'I it continues to fall and is engagedfby the striking bar |44 which pulls it forward. By. means of.a pull-bar |53, the 'lever I 4i pulls a lever |54' carryinga character |55 .prints through the inked ribbon 220;

As the shaft of the translating cams. I4`ceases Vto rotate, the pawls 06 and I Illcomeintoengagement with the stop. |02. They are released and 'theshaft' |04* remains still.

Foravoiding that-the shaft I0'4'be driven for- "wardsv by the action of the spring |43., when. the lever '|'4 performs its advancingmotion, the teeth ofboth'ratchet's |03 are opposed.: the one drives the'arm. |05 in .the .direction of thearrow. |51, the other inthe opposite direction. The retaining pawl could rest upon the teeth ofthe ratchetwithoutbeing disengagedwhenthe shaft ofthe translating cams :isin restingjposition. The mechanicaloperation' of theidevice wouldnot be altered but" the jumping` up of` the .pawl on its.- ratchet wouldproduc'e'a continuous noise which .isavoided by simultaneously disengagihg both ratchets.-

Transmission the sametime'as the lever 94` causes'the starting of the-translatingy cams fora revolution, the shaft 9i' of the transmission' cams is started by'thefollowing` mechanism: the shaft 9T is connectedf'b'y afriction |58 to the shaft I revolvingfinithe'- direction of the arrow |59v at a Itis' thus subjected tbfa constant stress in the direction of the arrow |592 Whenfthelsl''aft Q-T is" at rest, the cam |60 presses upon the leverfeliandkeeps the shaft 9"!A stationary When the lever ilis removed, it' releases the shaft 91, which begins to rotate.

From-'the'be'ginning-off this rotation,` a cam' |6| lifts thelevert'S- The hookA 0| is released and comesout of engagement, avoiding a wrong starting-inthe casefin which the key Serbe' maintained depressed 'forfaltimelonger than the transmission of thelcombihation. The engagement is reestablished when thelever' SS-isagain drawn back', which takes-place as the operator strikes another l key.

releases both the levers |65 and 94. If the hook" 9| is in engagement, the lever 94 stops the cam |6| and locks the transmission cam shaft 91 in resting position. If the hook 9| has been brought out of engagement by a new key strike, the lever 94, drawn by the spring 96, falls down to cause,`

through the rod 98, the frame 99 and the rod |99, the lifting of the stop |92, which initiates a revolution of the translating cam shaft |95, at the 1 same time as the rotation of the continuous transmission cams, without stopping for another revolution.

Reception of a combinationY The line current flows through the windings of v the electromagnet |66, the armature of which actuates, by means of the lever |61, the link |68 and the lever |69, the shaft |19 of an oscillating train, the alternating m-otions of which recreate the nature of the impulses coming from the receiving line. On the other hand, the permanently rotating regulated shaft 3 moves through a friction device |1| the receiving cam shaft |12 in the direction of the arrow |13.

In idle position, the lever |69 is maintained depressed by the electromagnet |66. y ing cam shaft |12 is provided with a spur |14v which comes in engagement with a hook carried by the stop lever of the receiving cams |15, sub- The receivwhich effectuates the transfer of the combination y --of the storing bars, such as 15, to the combining bars such as |24', then the translation and printjected to the constant action of a pull-back spring |16 and capable of freely pivoting about the axis |11. The stop lever is provided with a hook and pawl |18 upon which presses a disengaging lever |19 subjected to the constant action of a spring |89 and which rests against and is held by a hook |8| carried by the oscillating train shaft |19. The stop lever |15 is thus held in the path of the spur |14 arresting in idle position the shaft |12 of the receiving cams.

If it be supposed that the electromagnet |66 receives a starting impulse, the armature |61 is lifted, moving the lever |69 and turning the oscillating train shaft |10 in clockwise direction. The

hook |8| being withdrawn, the levers |19 and |15 are oscillated and release the spur |14. The receiving cam shaft |12, rotated by the shaft 3,

revolves in the direction of the arrow |13. The

pawl of the hook |18 comes in contact with the stop |82 and releases the lever |19 which, brought back by its spring |89 in contact with the stop |83, allows the free movement of the oscillating train shaft |19.

From the beginning of the revolution, under the action of a spring |86, a restoring cam |84 allows a frame |85 to fall down upon the assembly of storing bars, such as 15, in order to move them Y to the right in the position corresponding to the 2 working polarity. The frame |85 is then rapidly brought backwards by the `cam |84 in order to allow the free displacements of the storing bars.

After a time equal to the sum of the starting f impulse and of half the rst code impulse, a correcting cam |81 releases a correcting lever |88 which, urged by the spring |89 falls upon a blade |99 carried by the oscillating train shaft |19. The oscillating train/is thus held, for a little while,

in the position it had at the time of the fall of;`

the correcting lever |88. During that time, and

i0 under the action of the spring |93, a restoring cam |9| drops a Icall-back lever |92 upon the rst storing bar 15. The lever |92 can be prevented from moving by a hook |94 carried by the shaft |19. y lever |61 is down, indicating the idle polarity, the hook |94 is lifted and the lever` |92 freed to4 Consequently, if it be supposted that the push the storing bar 15 towards its left position, corresponding to the idle polarity. If on the contrary, the lever |61 is lifted, to the zworking polarity, the hook |94 is lowered and the positioning lever |92 held thereby, leaving the storing bar 15 in its right position, corresponding to the working polarity. The correcting lever |88 and the call-back lever |92 are subsequently lifted by the cams v|81 and |9|, allowing the free displacements of the oscillating train |19 until the time corresponding to the middle of the second code impulse, at which time the correcting cam |811 allows again the correcting lever |88 to drop upon the blade |99. Thereafter, a restoring cam allows a restoring lever to fall upon the second code impulse storing bar (not shown), and so on Y successively for all code impulses.

'I'f By the end of the revolution, a translating releasing cam |95 acts upon the lever |96 which, by means of the bar |91, swings the frame 99, thus starting the shaft of the translating cams |94,

ing of the corresponding character, as previously stated for the translation of the transmission control.

During the revolution of the receiving cams |12,

a cam |98 restores the lever |15 back in the path of the spur |14. The hook |18 comes in engagement with the lever |19. By the end of the revolution, the cam |98 releases the lever |15 which, in moving the thrust lever 19, is stopped by the hook I8|. The spur |14 comes in contact with the stop lever 15 and stops the receiving cam shaft |12 in idle position.

Locking of receiving mechanism during transmission When the electromagnet is energized by a parallel flow of the transmission line current, as in `l Figs. 2 and 3, or by the current of the line connected in simple current, as shown in Fig. 4, the l transmission of a combination would have the eifeet of causing the operation of the electromagnet and, consequently, the operation of the 'receiving mechanism, unless special precautions 1 were taken. The combination, already translated by mechanical means, as it is transmitted, would be translated a second time by means of the receiving mechanism.

To avoid this drawback, a locking cam |99 'secured to the transmission cam shaft 91 acts upon a roller `299 pivoted on a lever 29| which, through a bar 292 actuates a receiving locking lever 293 capable of engaging a locking hook 294 fixed upon the oscillating train shaft |19. When the transmission shaft is idle, the roller 299 enters a slot of the locking cam |99. The spring 295 retractsthe locking lever 293 and allows free.` movement of the oscillating shaft |19. If it be supposed that the transmission cam shaft |58 starts revolving, the roller 299 is expelled from K. its slots and moves the locking lever 293 which, during the complete revolution of the shaft 91,

prevents the lifting of the lever |69 by the electrom'agnet and, consequently, the starting of the reeiving device.

Cutting-out of the transmission 4contrai trans 'lation By means of the lever 293 .and the link '256,

the locking cam W9 raisesthelhook 201 whichis adapted to engage a nger 208 carried .by the striking bar [44 when the transmission shaft91 is in idle position. The hook 201 can also be held raised by a spur 229 carried bylever V211! pivoted at .2H and which-can assume twoypositions by means of ajumping roller (not-shown). Two keys 2l2 and 2`l3 are used `to bring it 'in either of `said positions. In the figure the key 2|3 issupposedto bedepressed: assuming that. the transmissionshaft 91 is revolving, theflever 2(53 allows the hook .2.01 to drop upon, and, be stopped bythe spur 2&19. The translation proceeds as described above. Supposing, further, that the key ,212 vis depressed, the .spur 2.09 .is loweredand the hook 2&1, pulled.. by the. .spring Qlil 2|4, falls upon thenger .238. The translation camshaft l 64 being setinoperationatthe same time .as the transmission shaft .91, the .transfer of the combination isaccomplished by the cam l |0,.from the storingbars 15, up tothe.combining bars |326 connectedtothe code contactsZ 9. Gonsequently, `the transmission of the combination proceeds normally; but the striking bar L44 being. stopped byv4 the .hook ,2ll1, the `thanslation and printing of the corresponding character do not take place. However, if a combination .is received, thetranslation cani shaft is started-whenthe transmission'cam shaft 91 -is in idle position, the lever 20| holds the hook 261 raised andthe translation is. normally performed. Thev effect. of lowering the key 21:2, consequently, stops the. transmission control translation, lbut .-not. the translation'and printing of the combination rreceived.

Two-,colour translation lf nit .is supposed that a combination .is translated after having been received, .the lever .-I.50- will drive a lever 2li by means of the universal bar 2li (commonfto all the characters) andthe rod 21S, and said lever 2l-1 pushing the lever '2I8 wilLlift the ribbon-.guide I2 l 9 so that printing will take'place on the upper half ofthe inking ribbon .226.

`supposing, also, that acombination vis simul- 5U taneously transmitted and translated, -the twocolour A cam 221, acting upon the lever 222, Ywill actuate the .arm -224 :by .meansof the bar 223, the said arm pushing llever 2-!.8lifting the' ribby vthe .universalbar 144 and swings the lever- 238 which, 4through the .instrumentality of.

lever- 23! and thebar 232, moves .the arm 3233. The saidarmpulls downwards the pusher .235

-allows the lever..231 to drop, under the action of the spring 238, swinging downwards the frame 239 todropa lever, such as 243, towards each storing bar;.said lever isurged by a light'spring which, inslidingonthe spur..235, displaces the 21H. Simultaneously, .the cam 242 allows a lever 243 tomovetowards the'storing bars whichare to .transmit for the rst combination of the resting ,polaritiea the said .lever 2133 being pulledv by astrongspring 244. The storing bars which are to transmit a working polarity at .the iirst combination, are urged to the right by vthe pin 245" carried by the lever 249, while the storingbars .which are to emitza resting rpolar ityfarezurgedtot-the:leftby the pin 24E carried by the alever 243. At thesame time,the arm 221 moves, by means of thebar2ll8, the hook si which releasesthe'stop levers/lof thetrans1nission thus causing ,thetransmission and translation of the combinationregistered'bythe storing bars 1.5.

As the rotation of the call signal shaft 2251is the combination registeredinthe storing bars 15 in .order that they will be'forming 'the second character `to be transmitted. :Bythe .end of the proceeding, the foams. such.- as .242 are modifying revolution of thetransmission shafti91, the lever .94 doeswnotmeet the hook 9| which is held out of engagement .by the rod 248; said lever falls again .under the ractionof the spring 96, :causing the-.transmission and'translation ofthe new combination registered in the lstoring bars 15. The

Vrelativespeeds-of the shafts -l and@ are so calculated .tha-t, to azrevolution Aof the 'shaft I, will correspond a .forward displacement of a combination-ron-rtheishaft.225. :'Ihe Ysame operation v is. reproduced "until-the last Acombination of the call .signal VVhas been "transmitted, during which -the lever 231 is lifted bythe cam'235, allowing bon-guide ZIE, so `that v:printing will take Yplace 55 .transmission of thecall signal. If yit is supposed on .the lower fhalf of the ribbon-22D.

Consequently, .if the ribbon 22B is vof two colours, for instance black inkedlin its upper half and :red inked in. its lower half, thecombinations being received-will be translated in blackand theA 60 combinations i being transmitted in red.

Call signal transmitter VThe callsignal ofthe apparatusis.transmitted thatthevcombination: Whois there? is simultaneouslyftransmitted andstranslated, the locking cam 199, acting through the roller -Zll and the bar 250, draws to the left the leverf25l carrying .thev pin .235.

.--At the'4 time-.when 'the translating mechanism operates the vlever M8, the pusher `234i is withdrawn-away from the lever 2-'28 by the pin 235. Consequently, -thefzcall signal shaft 225 is not when the apparatus has received .the combinafstated the seeking 'lever '148 falls, is drawnm forward.Ilrotationnfrthe.transmissionrcam shaft 91. VConi A push member .252 `:operated in the direction of' the .-arrow.2.5.3 .by means of a key (not shown) enables the operator to `move the stop lever 22S and tostartthe call signal .transmitting device.

Repeated transmission of' the same combination A push. member 254 operated in the direction ofthearrow 25.5 by .means of a -key (not shown) enables the nperator .to cause the continuous 13 sequently, if the operator holds a key depressedat the same time as the push member 254, the corresponding combination is continuously repeated, at the maximum speed of the apparatus, until the control repeating key is released.

Letters-Jigures mechanism The type bars, such as |54, are mounted on a segment 256 adapted to hold two positions, in which it is brought by a linked parallelogram formed of a frame 251 and a lever 258, the link |53 coupling the lever |41 to the type bar |54 in both said positions of the segment. The frame 251 yis connected through a link 259 to a lever 268 carrying a roller 26, said roller contacting a reversing cam 262 mounted on a plate 263 carrying a pawl 264 engaging a ratchet wheel 265. The spring 266 constantly urges the frame 251 upwards. The cam 262 and plate 263 assembly is frictionally mounted over the unregulated rotating shaft 2. The tail of the pawl 264 can be acted upon by either of two disengaging iingers 261 and '268 carried by a common shaft 269 also carrying a plate 218., On said plate are secured two lingers 21| and 212 which can be pushed by the levers 213 and 214 connected to the seekers |45 and |46, respectively, and corresponding to the combinationsy gures and letters If it is supposed that, for instance, the combination figures has been translated, the disengaging nger 268 is positioned in the path of the pawl 264, which abuts thereagainst; the reversing cam 262 is thus arrested in such a position that the lever 268 allows the frame 251 to be raised to its highest position under the action of the spring 266. Consequently, if the type |55 is provided with a figure at the base and a letter at the top, the figure will be printed.

Assuming, further, that the combination letters is translated, the seeker |46 is actuated by the striking bar |44; the lever '214 is pulled' forward and engages the pin 212, whereby the shaft 269 moves the finger 268 backwards and the nger 261 in the path of the pawl 264. The

finger 268 being displaced, the pawl 264 engages the ratchet wheel 265, to drive the reversing cam 262'until the pawl 264 contacts the iinger 261.

The reversing cam 262 is then locked in a rnew f position; it thus brings the frame 251 in its lowest position so that, when a combination will be received subsequently, the apparatus will print letters.

If it be supposed, now, that the combination gures is translated, the seeker |45 is operated to push the pin 21| and causing the withdrawal of the nger 261; the iinger 288 being brought in the path of the pawl 264, engagement takes place, as before explained, bringing the reversing cam 262 in the position in which the pawl 264 is disengaged by the finger 268 and in which the apparatus prints gures.

Some parts of the apparatus can be operated in figures by combinations which will have to print a character in letters rIhis is particularly the case for the call bell and for the control Who is there? which, according to the international code for teletypes, are operated by the same combinations which, in letters respec,

locking bar 288 arranged parallel to the combin ing bars such as |24 and sliding on the samel ngers |25 and |26. The locking bar 288 isl maintained at either end of its stroke by means of a jumping roller 28| carried by the lever 282vv subjected to the constant action of the .spring 283. The bar is provided with two teeth 284 and 285 movable under the seekers |48 and 286, re-

spectively, which control the release of Who is there? and the call bell when the bar 288 is moved to its idle position at right corresponding to letters When the bar is to the left, the

teeth thereof allows the seeks to fall, this position' corresponding to gures Consequently, if it be supposed that the combination figures has been translated, the locking bar 288 allows the fall of the seeking levers |48 and 286. If the combination Who is there? for instance, is subsequently translated, the seeker from falling and there is no releasing of the mechanism.

By means of the stud 281 on the arm 288, theA locking bar 288 actuates a shaft 289 carrying a name plate 298 displaying gures or letters through an aperture 29| of the machine cover, as

the case may be.

Call bell The seeker 286 (Fig. 6) is linked to a bell crank 292 carrying a hammer 293 adapted to strike a gong 294 and controlling at the same time the closure of the conta-cts 58. Consequently if it is supposed that the combination alarm is re"- ceived in gures, the seeker 286 is operated by' the universal striking bar |44 and the gong struck.

At the same time, the contacts 58 are closed. This quick contact is used by known devices outside of the apparatus for giving a signal for instance.

Feeding of the paper band Fig. 7 shows the feeding mechanism of the paper band in apparatus using such bands or tapes.

When a seeking lever |41 is operated, the universal bar 2|5 actuates the arm 2H by means of the bar 2|6; this movement oscillates the lever 295, pivoted at 296, and called back by the spring 304. Said lever 295 actuates the pawl 291 urged against the ratchet wheel 298 by the spring 299. Said ratchet 298 is mounted on a shaft 388 carrying a feed roll 38| against which the tape |56 is ap- Y plied by means of the paper channel 382. Before entering the channel 382, the paper tape is trained over a rubber platen 383 which serves as a support for striking the characters. When the striking of the character is accomplished, the universal bar 2|5 goes back again, driving the push member 2I6 and the lever 2H. steps back the pawl, 291 to drive the ratchet 298, and advance one space the paper tape |56.

curately between the wheel 298 and a finger 385 carried by a lever 386 urged by a spring 381 against a stop 388. The operator can advance the tape |56 by revolving the wheel 38| by means of the milled knob 389. At the same time the shaft 388 The lever 295 Atv the end of the stroke, the pawl 291 is locked acdnveszthezrubberiplaten 30.3 Jayfnreans of ithesgear:

train-.3,1m 3H and 312. :.'Iherpitchof the-gearsl 3|' and 3|2 is .such that -theplaten 303 'willhavez ay forward displacement fsmaller thanithat of the'tape |55, whereby :frictionwill always exert uponithe saidztapeasmalltension; furthermore, the advancement .of the platen=will be. such that the types will strike `at odd 1.places :thereon tto avoid'pittingt -As the levers 213iand 214, which translate .the combinations figures andfletters, dotnotropcrate the universal bar 2 I5, vthey'ldo not cause -the advancing :motion vof the paper band :|5 6.

Counter a shaft f3|9`which vcarries alpointer 32.0 :moving above a dial 32|, said pointer being subjectedtov the constant call-back :action .of la spring I322 wound clockwise aroundl 3119. AsY the .pawl g3f|21= moves backwards, .holding :pawl 323 aprevents the Wheel 3|81from moving. Each alternative motion of the universal bar 2|5 thusadvances by one tooth the ratchet,3 |.8 and the pointer 320.

If it be supposed that the seeker 324 is operated, corresponding to the `line spacing .combination, for printing .a reference .character on Zthe tape apparatus without advancing .the carriage of a wide'sheet printing apparatus, the intermediate lever 325 pulled'by the seeker 324 moves :a lever 326 swinging Ya plate 321freely'pivoted about theshaft 3`|3,.said plate includingfasloped'ramp 328 releasing the moving fpawl 3|1 at thesame time'as .the latter is pulled by the universal bar 2| 5. The ratchet wheel 318 Ais accordingly not driven and remains in the position taken afterthe preceding strike,even though themotion of the intermediate lever 325 causes printing of conventional character and, by operating lthe universal bar 2|5, effectuates the forward motion of the paper tape |56.

Again supposingfthat the-seeker -32-9 is operated,

corresponding to the carriagereturn combination, printing of a conventional character and the forward displacement of the paper band |55 will occur by means of the universal bar 2| 5; simultaneously, the intermediate lever 330 will bepulled to push alever 33| swinging a plate 332 pivoted freely about the shaftV 3|9. 332'is provided with two ramps 333"and 334,-re spectively, releasing'the pawls 311 Aand 323; isaid' plate carries a Vlinger 335 which vcomes inengagement with a hook 33|; constantly'urged back towards the nger 335 "oy a :spring .331. .The ratchet wheel 3|8 being released, theV shaft '3|9. will beturned in clockwise direction bythe spring 322, until a pin .338 engaging a lever 339 dislodges the pavvl 33Std release the plate .332. Said plate pivoting under the.. action of the .spring .342), brings bothpawls 3 I1 and132.3..in.engagement with the.. ratchet wheel` |18.

gIn order to avoid. .damaging the apparatus,

The lplate* should :a V.wrong fmanipulationnccur, if fthe ftransf latordid notzreceivein due time a carriage irecorresponding'to the169th character, for instance, if the carriage apparatus isdesigned for receiving 69 characters in each line. Consequently, if the number `of characters being received since the last translationof the carriage return combination is lhigher than 69, the pawl 3|l1 in lmeeting the tooth gap 34| cannot wind up the ratchet 3H? and the pointer F320 -continues toindicate 69 until a carriage return combination is again translated.

Soithat the advancing motion of the ratchet 3 |18 be continued when the toothfgap 33| is brought in front of the xed pawl 323, the said pawl is provided with two teeth.

For advising the operator that the endo'f la line is coming near, Van arm V332 pushes apawl 343 mounted on lever 344 `subjecled to the constant action of a spring 345. As Vthe pointer reaches the 60th character, the lever 3115 is released by the lever l332 and falls down to strike the hammer 36 upon a gong 341. As the advancing motion offthe pointer 32E! continues, the lever 332 pushes a pawl 348 carried by an arm 349, said arm moving a toothed bar -350 arranged parallel to the toothed bar 245 and adapted to lockagainst movement .all the key levers,lexcept the lever controlling the carriage return; the toothed bar y249, however, locks 'in place allthe keys without exception. The said locking may, for instance, take place at about the 65th character. If the operatorstill must print some characters, a key (not shown) enables him to push inthe direction ofthe arrow '352 a rod 353 which presses on the pawl.348 to release it from ythe arm'342. The toothed'bar 350,.being freed, comes back,'under the action ofthe spring 35|, in releasing position of the key levers. As the pointer 32|) .reaches the mark 69, the arrn 34-2 contacts directly thearm 349 and brings the toothed bar 350 back in locking position ofthe key levers, from which it cannot/be released unless the translator in translating the carriage return corn.- bination brings the pointer 329 back in starting position.

In order to dispense the koperator of striking on the key carriage return for vunlocking the key-hoard, after every seriesof 69 characters, if the apparatus corresponds with another apparatus for tape printing, a lever 354 pivoted by friction about-the shaft 355 can be made by the operator to hold the lever 33| by'means of the slotted bar 356 and, thus, maintain-the plate 332 in the position-in which the pawls 3|1 and 323 are disengaged from the ratchet wheel 3 |8, thus constantly leaving the pointer 32D in zero position. The slot .351 formed in the bar 35S-enables thelever 33| to move freely when the holding lever 3541s brought bythe operator ,in inoperative position.

Automatic starting lcmd stopping of the motor that is: after the last-operation of the stop levers` 94 and |15.

`For-.that purpose, `asthey fall, the levers |65 connected ,to the levers 94 .and 1.15 swing the rocker .358.. which, .bymeans ofthe bar. 359 (Figuros. 51.and19) operates .thelever .36.0. The time.

ted shaft 2 which, through the worm and gear vtrain 5, 39|, 362 and 363 drives inclockwise direction a shaft 364 carrying a ratchet wheel 365 engaging a pawl 36E pivoted to an arm 361 freely pivoted about the shaft 364. The motor is energized through contacts (only one, I9, is shown) which can be opened together by an insulating block 398 carried upon lever 369. The levers 361 and 369 are together by a spring 319 which can be fully distended, so as to let the lever 369 come in engagement with a at apertured spring 31|.

Consequently, supposing that the lever 369 is pulled by the bar 359, said bar will lift the pawl 386, thereby allowing the lever 361 to swing under the action of the spring 31D until the latter is completely distended. The lever 369 is then free to swing also, allowing the contacts I9 to be closed, and engaging the spring 31|. Assuming that, for some time, the bar 359 imparts no irnpulse to the lever 369, the ratchet wheel 365 revolving in a clockwise direction swings, by means of the pawl 336, the lever 361 which tensions the spring 319. But the flat spring 31|, by holding the lever 359 depressed, prevents opening of the contacts |9. If it be supposed that the bar 359 imparts an impulse to the lever 366, the pawl 366 is lifted and the lever 361 comes back in starting position without opening the contacts I9. If no more starting impulses of the motor occur, the lever 361, after a time which is determined by the arrangement -of the operating parts, pushes by means of a pin 312 the flat spring 31| which is bent opposite the slot 313 of the lever 369, allowing same to swing up and to open the contacts |9 and stopping the motor O.

In order to avoid damaging parts in the event that contacts i9, be shorted, or stuck, so the motor would not stop, the arm 369 carries a tooth 314 upon which the pawl 366 may climb: the pawl 396 is thus released and falls in a preceding tooth.

Advance and return 'magie 4when the lever |42 is pushed by the cam |4|.

If, for translating a combination, the striking bar |44 is moved in the direction of the arrow 315 (Fig. allowing all seekers to drop, the arm r318 pushes the bar 311 and, revolving the shaft 3'18 carrying the lever 319, allows the lever 389 to be retracted under the vaction of the spring 38|. The lever 399 is provided with a movable pawl 382 which jumps out of a tooth of the ratchet wheel 333. Said wheel is carried by the shaft 384 constantly urged in counter-clockwise direction by the spiral spring 385. A pawl 386 prevents the ratchet wheel from coming back. By means of the rack 388 the gear 381 drives a paper carriage 389 slidable on two rods 399 and 39|. As the universal bar |44 returns, the bar 311 is pulled to actuate the levers 319 and 389. The movable pawl 362 advances the ratchet wheel 383 one tooth and moves the carriage 389 one space.

The advancing motion of the carriage is to be `18 arrested when the combination being translated is either letters,n figures or line space. To this end, the corresponding seekers |45, |46 and 324 control by means of rods 392, 393 and 394 the rotation of a shaft 395 carrying an arm 396. Through the intermediary of crank lever 391, the

' arm 396 causes displacement of the tail ofthe moving pawl 392 at the same time as the latter is drawn backwards during the forward stroke of the universal bar |44, as explained above. Consequently, the moving pawl 382 cannot jump a tooth of the ratchet 383, and the advancing motion of the carriage by the return of the universal bar |44 is accordingly prevented.

If it be supposed that the carriage return combination is translated, the corresponding seeker 329 pulls lever 339, the bar 398 and lever 399, whereby said lever 391 is pivoted about the axis 499. The lever 49| is provided with a ramp 492 engaging the tail of the pawl 386, which swings through a slotted link 493, the movable pawl 382, thus releasing the ratchet wheel 383 and consequently the shaft 384. The carriage is then returned by the shaft 384 rotated by the wound spring 385. At the same time, the lever 49| allows the hook 494 to rock under the action of the spring 495. As the universal striking bar |44 effectuates its return stroke, the lever 49| is freed, but is arrested by the hook 494, whereby the pawls 382 and 385 are kept raised from the ratchet 383. When the carriage reaches its starting position, a stop 496 onsaid carriage moves the lever 491 carried by the shaft 498 upon which is secured the hook 494; said hook being swung sideways, releases the lever 49| which, in falling, allows reengagement of the pawls 382 and 386 with the ratchet 383. A lug 499 which abuts against a dash pot 4|9 dampens the shock at the end of the carriage stroke. In the same way, as for the above described character counter, a tooth gap 4| prevents the carriage from going beyond a predetermined position and the pawl 386 is provided with twoA teeth.

A bell advising of the line completion and a double locking of the key levers, similar to those described in connection with the character counter mechanism, are operated by the lug 499 to guide the operator in typing. j

Line spacing If it be supposed that the seeker 324 (Fig. 10), corresponding to the line space combination has fallen and has been driven by the universal bar |44, said seeker will actuate by means of the lever 325 and the rod 4|2, a spring 4 |3 which pulls hook member 4|4. The said member rests upon an arm 4|5 carried by the shaft 318 which, accordingly, is raised during the advancing stroke of the universal bar |44, and loweredl by the end of such stroke. As the universal bar |44 starts its return movement, the member 4|4 is driven downwards by the arm 4 5 and, through a spring 4|6 imparts its motion to a lever 4|1. Acting upon bar 4|8 and lever 4|9, said lever 4|1 displaces an arm 429 carrying a roller 42| resting upon a plate 422 extending from the shaft 423 of the carriage 329. vBy means of an arm 424 the shaft 423 drives a pawl 425 which advances a tooth at a time the ratchet which is secured to the shaft of the paper carrying platen 421. At the end of the downward stroke of the arm 4|5, the extension 428 of the member 4|4 comes against a stop 429. The member 4|4 is swingable about the stud 439 holding one end of spring 43| of the seeker 324.

Y ,Starting adjustment of the receiving com shaft In order to adjust the lstarting position 0i the receiving cam shaft, the device causing the starting and 'stopping .0f `said shaft may be replaced, in

a specific embodiment, by the device shown in Fig. 1'1, having the same mechanical operation as that shown in Fig. ,5 with the only difference that the finger A|14 is stopped, not directly by the lever |15, but by a hook Said hook is freely pivoted about a'piyot 433 carried by an adjustable crank arm 434 journalled around the receiving cam shaft |12, but without any connection with it. The hooi; ,432 has an arcuate body slidable in a siot formed inthe lever |15, thereby following. all its motions whatever the position taken by the pivot 4,373; "me am; 43.4 is clamped by a mined nut 436 threaded on a screw 435 on a calibrated sector 431, 'Consequently should the operator notice, from the receiving rate o f the apparatus,C that the receiving cam shaft |12 operates the' receiving cams too early, it will only be necessary to loosen the nut 436 `and to move the arm 434 in opposite direction with .respect ie the e.rrew |13 The hook 43,2 A'|';l'i1f1 s arrests'more early ythe shaftV |12; the time required by the shaft |12 for reaching the Operation point of the receiving .cams will be increased correspondingly. Ii it is ascer- 'Gained 9415i ille'recciving cams are operated too late, the reverse manipulation vwill have to be made.

Automatic advance and reverse motion of .the printing ribbon The energy necessary to the automatic disr11-bermen# ef the printing ribbon. 22.0, shown in Fis. 1.2), le teken dreetly .from the universal strikine ber 14.4 inserate-.d br tbe unregulated shaft z (Fig-1),...

Arrest. the universo striking bar 144 ong. .12.;

beers aber, irre lever sie. pirated at ses, which in iisrurn eeetaets. e left advancing lever 44.!! oscillating about the axis 44| and displacing a. .right revenons lever 4.4.2, te. which it. is connected, said lever 442A pirotable. at 44.3,. The assembly of. both springs 455 and 456. A bar 451, slidable upon the pins 458 and 459, and maintained in either of its end positions by a spr-ing pressed jumping roller 4.68, is provided with two studs 46| and 462. supposing that the rod 451 be maintained in its right resting position, as shown, the stud 462 will withdraw the pawl 446 from the right ratchet 45.11 whilst the stud 46| leaves free the left pawl 4,45.. Consequently, if it be supposed that, as the translator is being operated, the universal bar |44 Comes. forward to strike a character, the lever- 434 is liberated from contact with the universal bar |44 and the assembly7 of the levers 440 and 4.4.2, under unev action of spring 444, is dis, placed beelswarclly to. drive forward both pawls 445 and 446. The pawl 4.45 engaged with ratchet 14.3 drives same and winds up. the printing ribben 22D the reel 45,3. Assuming, now, that the rod 45,1, be in the` lett position, the stud 46| removes the pawlA 445 from the left ratchet 449 and the stud 46,2 allows the pawl 445 to engage the `2|) 'ratchet 4.5.4. The `di.splacement s of the universal .striking bar |44 consequently causes the displace- .ment of the .ratchet 450 to wind up the ribbon 2,20 on the ree1454.

For automatically changing the winding rdirection of theribbon 220, when one reel is empty and ,the other full, the .levers 44|) and 442 are provided with hooks .453 and 464 pivotable at 4.5.5 and 4.65 and forked about pins 461 and 468 carried by the bar 451. Both hooks are engageable with two fingers 469 and ..419 integral with two pressers 41| and 412 urged by two light springs 413 and 414 on the ribbon 226 Wound within each reel 453 and 45,4. As a reel lills up, the corresponding lingers 469, or 41.0, comes opposite a hook 463 or 464.- Gonsequently, if the left reel 453, for instance, is full, the left finger 469 comes in the path of the left hook 453. As the universal bar |44 returns, the hook 463 abuts against the nger 469 and pivoting about 465, drives the pin 461 to the left and moves the bar 451 to the left position. The result is `the release of the left pawl upon ratchet 449 and the engagement of the right ratchet y.45!) by means of the pawl 446. When the reel 456 is lled, the same operation is repeated to reverse direction of movement of the ribbon 220.

It must be understood that various changes as to the size, shape and arrangement of parts may be resorted to Without departing from the spirit of the invention, 0l* the .Scope of the subjoined claims.

What I claim as my invention and desire to secure by Letters Patent is:

1,. Transmitting telegraphic apparatus of the start-stop type Comprising, in combination, a keyboard manipulator, selector members adapted to be actuated by the keys of the manipulator, recording elements dapted to be set by the selector members, transmitting polarity contacts, a transfer `mechani-Sno adapted to set the polarity contacts according to the recording elements set.- ting, a non-regulated shaft, a cam actuated by said shaft for driving the transfer mechanism, a rotary transmission distributor mechanism, a controlled shaft adapted to drive the transmis.- sion distributor, a centrifugal regulator adapted to brake the rotation speed of the controlled shaft, and a single electric motor rotating at a speed higher than that of the controlled shaft and driving the non-regulated shaft through non-sliding couplings and the controlled shaft Vthrough a conetant-friction slipping coupling.

2. Transmitting telegraphic apparatus of the start-stop type having translating means comprising, in combination, a keyboard, selector members adapted to be actuated by the keyboard, recording elements adapted to be set by the selector members, transmitting polarity contacts, a printing mechanism adapted to print a character in accordance with the setting of the translating means, a transfer mechanism adapted to set the translating means secured to the polarity contacts in accordance with the position of the recording elements, a shaft revolving at a non-regulated speed, a earn driven by said shaft for actuating the transfer and printing means, a rotary transmitting distributor, a controlled-speed shaft adapted to drive the transmitting distributor, a centrifugal regulator brake for limiting the rotating usneed of the shaft, and a single electric motor rotating at a speed above that of the con- IGrolled Shaft driving the. non-regulated shaft through. the intermediarieof rigid couplings and `the controlled shaft by means of slipping-constant-friction couplings.

3. Receiving and translating telegraphic apparatus of the start-stop type comprising, in combination, a rotary receiving distributor, a controlled-speed shaft adapted to drive said distributor, a centrifugal regulator brake adapted to limit the shaft speed, recording elements adapted to be set by the said distributor, translating combination members, a printing mechanism adapted to print characters in accordanceawith the setting of the translating members, a transfer mechanism adapted to set the translating members in relation tothe setting of the recording elements,

a non-regulated speed shaft, a cam driven by said l last shaft for actuating the transfer mechanism, and a single electric motor of a speed higher than that of the controlled shaft driving the nonregulated shaft through the intermediary of rigid couplings and the controlled shaft by means o constant-friction slipping couplings. 4. Transmitting, receiving and translating telegraphic apparatus of the start-stop type comprising, in combination, a keyboard, selector members adapted to be actuated by the keyboard, a rotary distributor transmitting mechanism, a rotary distributor receiving mechanism, a controlled-speed shaft for driving said transmitting and receiving mechanisms, a centrifugal brake forlimiting the speed of the controlled shaft, recording elements adapted to be set by either the vselector members or the receiving distributor, transmitting polarity contacts, translating combination elements secured to the contacts, a printing mechanism adapted to print characters in accordance with the setting of the translating elements, a transfer mechanism adapted to set the said translating elements in relation to the position of the recording elements, a non-regulated speed shaft, a cam driven by said shaft for actuating the printing and transfer mechanisms, and a single electric motor of a speed higher than that of the controlled shaft driving the non-regulated shaft through rigid couplings and the controlled shaft by means of constant-friction slipping couplings.

5. In avtelegraphic apparatus according to claim 4, type bars each carrying a letter and a gure or sign, a type bar segment adapted to take a first position in which each type bar is adapted to print the letter it carries and a second position in which the gure or sign is printed, a lever adapted to move the segment in either of said positions, a spring acting on said lever for raising the segment, a cam limiting the displacement of the lever actuated by the nonregulated shaft, and stop means driven by the printing means into numerals or letters position of operation of the stop means.

6. In a telegraphic apparatus according to claim 4, a blocking lever adapted to prevent movement of the transmitting distributor, a pullback spring for said lever, a hook adapted to hold said lever in operative position, a retractable plunger for operating the lever, lever means moved by the selector members when a key is depressed for actuating the plunger, a cam for setting the blocking lever actuated by the transmitting distributor, said cam freeing the lever near the end of its travel, and a cam integral with the distributor for retracting the plunger at the start of its rotation.

'7. In telegraphic apparatus as claimed in claim 4, a blocking lever adapted to prevent movement of the transmitting distributor, aI lever end of its rotation, a stop hook adapted to free the cam actuating the transfer and printing mechanisms, and a rod adapted to be pulled by the blocking lever of the transmitting distributor and the receiving distributor-actuated levev when either of which is actuated.

8.111 a telegraphic apparatus as claimed in claim 4, a finger actuated by the transfer mechanism adapted to-push upwardly, at the time of transfer, the selector members and the key actuated when such a key has been struck.

9. In telegraphic apparatus as claimed in claim 4, an electro-magnet adapted to be energized by line impulses, an oscillating device driven by said electro-magnet and a blocking ici/eroi thereceiving distributor, a pull-back spring for said blocking lever, an intermediate lever for holding the blocking lever, a pawl (on the oscillating device, a hook on said pawl upon which the intermediate lever rests, said pawl isengaging the intermediate lever at thev end of its movement, a light spring for retracting the intermediate lever, and a cam integral with the receiving distributor for resetting the blocking lever with the intermediate lever.

19.A In telegraphic apparatus as claimed in claim 4, an electro-magnet adapted to be ener.- gized by line impulses, an oscillating device driven by said electro-magnet, a spring for pulling back a blocking lever of the receiving distributor, an intermediate lever for holding said blocking lever, a pawl on the oscillating device, a hook on said pawl upon which the intermediate lever rests, the pawl disengaging the intermediate lever at the end of its movement, a light spring for retracting said intermediate lever, a cam secured tothe receiving distributor for resetting the blocking lever onto the intermediate lever, a stop pawl, and a finger secured to the receiving mechanism distributor for engaging the stop pawl, said iinger being pivoted onto a lever adapted to be rotated around the receiving distributor shaft and settable by a graduated dial, said stop pawl being circular and slidable within a slot formed in the blocking lever of the receiving mechanism distributor.

ll. In telegraphic apparatus as claimed in claim 4, a blocking lever adapted to arrest movement of the transmitting distributor, and a cam set adapted to be slowly driven through the intermediary of rigid couplings connected to the controlled shaft, one of the cams maintaining inoperative the blocking lever of the transmitting distributor, another cam actuating a comb locking all the keyboard keys in position of rest, the remaining cams setting the recording elements in predetermined order, the transmitting polarity contacts being set by the transfer mechanism actuated by the non-regulated shaft.

12. In telegraphic apparatus as claimed in claim 4, a tape printing mechanism, a type counting mechanism, a blocking comb adapted to lock all keys with the exception of line return, a spring urging said comb into keys-freeing position, a pawl lever, a hammer on said lever for striking a bell, a pawl lever adapted to move the comb into key-locking position, a nger pivoted on the shaft of the type counter for actuating the bell striking hammer and acting upon the comb-moving lever, and an auxiliary key depressing a plunger disengaging the pawl lever to release the comb, the pivoted finger acting directly also on the lever moving the comb into locking position when the Anumber of characters forming a line is reached.

13. In telegraphc apparatus as claimed in claim 4, e. carriage adapted to carry a sheet of paper, an interlining mechanism adapted to advance the paper one line at a time, a uni versal translating bar actuated by the transfer and yprinting cam, a seeker operable when the interline" combination is translated, an arm actuated by the universal bar, a finger moved by the said bar, the seeker pulling said finger, levers for transmitting the nger movement to the interline mechanism, and a fixed stop disengaging the nger'from the pull of the arm before the return to rest of the said universal bar.

14.111 telegraphic apparatus as claimed in Aclaim 4, a. blocking lever on the transmitting distributor, a blocking lever on the receiving distributor, a contact, a contact breaking lever Aadapted to open said contact, a at spring for arresting said lever, a shaft slowly rotated by vthe non-regulated shaft, a time-keeping lever, a pawl on said lever, a ratchet on the slow speed shaft for engaging the pawl, a spring secured to the time-keeping lever urging said lever to the contact-breaking position, a iinger carried 'by ,the timekeeping lever for progressively moving .the flat spring toward the lever-liberating JEAN ESTOUP, Known as Hem-i Estoup.

REFERENCES CITED The Afollowing references are of record in the le of this patent:

UNITED STATES PATENTS Number Name Date 1,567,392 Kleinschmidt Dec. 29, 1925 1,652,320 Nelson Dec. 13, 1927 2,147,249 Franklin Feb. 14, 1939 FOREIGN PATENTS Number Country Date France Aug. 23, 1946 

